Replaceable Demolition Shear Piercing Tip

ABSTRACT

A heavy-duty demolition shear with a replaceable shearing tip has a lower jaw and an upper jaw pivotally connected to the lower jaw. The upper jaw has primary and secondary shear blades. A replaceable shearing tip is mounted to the upper jaw. The replaceable shearing tip has two L-shaped sections which engage the upper jaw between them. The replaceable shearing tip engages the upper jaw on at least three seats. The replaceable shearing tip is connected to the upper jaw by socket-head cap-screws.

CROSS REFERENCE TO RELATED APPLICATION

This is a continuation of U.S. application Ser. No. 13/530,837, filed 22 Jun. 2012, now RE45341, which is a reissue of U.S. application Ser. No. 11/032,838, filed 10 Jan. 2005, now U.S. Pat. No. 7,895,755, which is a continuation of U.S. application Ser. No. 10/299,543, filed 18 Nov. 2002, now U.S. Pat. No. 6,839,969.

BACKGROUND OF THE INVENTION

A fuller understanding of the operation of the demolition apparatus of the present invention may be achieved by studying U.S. Pat. No. 4,519,135, hereby incorporated by reference. This invention relates to a heavy duty demolition apparatus, especially adapted to be mounted on a rigid boom of a mobile vehicle and particularly adapted to be mounted on the dipper stick of an excavator.

The invention also has a replaceable shearing tip on the movable upper jaw.

Heavy duty shears of the type that are powered by hydraulic cylinders are proving more and more useful in handling scrap and especially metal scrap of all sorts. Such scrap comes in many different forms, and may be in the form of pipes made of steel or soft iron or cast iron, ranging in sizes from 2 inches or smaller, and up to 8 or 10 inches in diameter or larger; structural beams such as I-beams, channels, angle beams in a large range of sizes, up to 8 or 10 inches across and larger; rods and heavy cables having diameters of 2 to 3 inches and larger, metal sheets and plates and formed metal of all sorts including wheels and automobile and truck frames, and a myriad of long and short pieces of stock and metal pieces that are cast, rolled, stamped or otherwise formed, both singly and in various types of assembly.

The prior art has included numerous shears such as that illustrated in U.S. Pat. No. 4,198,747; U.S. Pat. No. 4,188,721; U.S. Pat. No. 4,897,921; U.S. Pat. No. 4,543,719; U.S. Pat. No. 4,558,515 and U.S. Pat. No. 4,104,792. Typically, these heavy duty shears mount on the dipper stick of an excavator so that the shears may be controlled fairly well in handling various types of scrap and cutting the scrap into smaller twisted and contorted pieces and lengths as the scrap is drawn into the throat of the shear.

Typically, these shears have a fixed lower jaw and a movable upper jaw that pivots on the lower jaw, with shear blades of hardened steel on both the upper jaw and the lower jaw. The workpiece is sheared by closing the upper jaw against the lower jaw under hydraulic pressure, with the shear blades cutting the workpiece. The movable upper jaw may also have a fixed, hardened shearing tip integral with the upper jaw. The tip is not suitable for removal and replacement due to the high lateral forces exerted on the tip as the movable jaw flexes laterally. Great tension is also exerted upon the tip, which may be wedged tight with scrap, upon opening the jaws. Direct shear bearing loads are also on the tip when shearing. All these factors will cause a removable tip to readily break off the upper jaw.

There is a need for a heavy duty demolition shear with a replaceable shearing tip.

SUMMARY OF THE INVENTION

A heavy-duty demolition shear with a replaceable shearing tip has a lower jaw and an upper jaw pivotally connected to the lower jaw. The upper jaw has primary and secondary shear blades. A replaceable shearing tip is mounted to the upper jaw. The replaceable shearing tip has two L-shaped sections which engage the upper jaw between them. The replaceable shearing tip engages the upper jaw on at least three seats. The replaceable shearing tip is connected to the upper jaw by socket-head cap-screws.

A principal object and advantage is that the upper jaw has a replaceable shearing tip.

Another object and advantage is that the replaceable tip is held in place by socket-headed cap-screws which will hold the tip in place despite high direct and lateral/forces, as well as stress shearing forces and tensional forces exerted on the tip when opening the shear with jammed scrap pieces about the tip.

Another object and advantage is that the tip is supported on the upper jaw on at least three seating surfaces, which alleviates stress shearing forces and tensional forces.

Another object and advantage of the present invention is that the tip encapsulates the upper jaw and prevents the upper jaw from being damaged by forces exerted on the tip.

Other advantages will be understood from reading the Detailed Description of Preferred Embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a right-side perspective view of the demolition apparatus with the replaceable shearing tip of the present invention, showing the tip assembled on the apparatus.

FIG. 2 is like FIG. 1, but with the tip exploded off the apparatus (disassembled).

FIG. 3 is similar to FIG. 2, but is a left-side perspective view.

FIG. 4 is similar to FIG. 1, but is a left-side perspective view.

FIG. 5 is a partial right-side elevational view of the upper jaw of the apparatus with the tip mounted thereon, showing various angles.

FIG. 6 is a cross-section at approximately the lines 6 of FIG. 5.

FIG. 7A is similar to FIG. 5, showing additional angles. FIG. 7B is a cross-sectional view taken at approximately the lines 7 b in FIG. 7A.

FIG. 8 is similar to FIG. 6, showing additional dimensions.

FIG. 9 is similar to FIG. 5, showing additional angles.

FIG. 10 is similar to FIG. 5, showing additional angles.

FIG. 11 is similar to FIG. 5, showing additional angles.

FIG. 12 is similar to FIG. 5, showing additional angles.

FIG. 13 is a right-side elevational view of the apparatus of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The heavy-duty demolition apparatus of the present invention is generally referred to in the Figures as reference numeral 10.

Referring to FIGS. 1 through 6, the heavy-duty demolition apparatus 10 comprises a lower jaw 12, an upper jaw 14, and pivot means 16 interconnecting the lower jaw 12 and upper jaw 14.

The upper jaw 14 has a first side 22, and a second side 24. The lower jaw 12 has a first mounting plate 26 adjacent the first side 22, and a second mounting plate 28 adjacent the second side 24. The first mounting plate 26 and second mounting plate 28 receive the pivot means 16 between them.

The upper jaw 14 has upper shear blades 33 and 34 meeting at apex 35 and the lower jaw 12 has lower shear blades 36 and 37 extending along each other for shearing a workpiece when the upper shear blades 33 and 34 are closed upon the lower shear blades 36 and 37. Preferably, the shear blades 33, 34, 36 and 37 are replaceable.

Preferably, the apparatus 10 further comprises a guide blade 48 on the lower jaw 12 lying opposite the lower shear blade 36 and in spaced relation therewith, the outer end 50 of the guide blade and outer end 52 of the shear blade being secured together by rigid means 54. The rigid means 54 is preferably a tie plate 56.

An open slot 58 having a width wider than the upper jaw 14 preferably exists between the lower shear blade 37 and the adjacent guide blade 48 to receive the upper jaw therein.

On the first shearing side 22, the upper jaw will receive the upper primary shear blade 33 and the upper secondary shear blade 34. The shear blades 33 and 34 meet at the upper shear blade apex 35 which is the last point wherein the upper jaw 14 shears a workpiece against lower elongate shear blade 36. On the lower jaw 12, the lower primary shear blade 36 and lower secondary shear blade 37 are received.

To accommodate secure attachment of the replaceable shearing tip 110, the upper, movable jaw 14 is modified to include a tip mounting portion 60, as seen in FIGS. 1-4.

The tip mounting portion 60 further comprises a first mounting surface 60 a on the first side 22 of the upper jaw 14, and a second mounting surface 60 b on the second side 24. A third mounting surface 60 c is located on the bottom side of the upper jaw 14 between the first mounting surface 60 a and the second mounting surface 60 b. A fourth mounting surface 60 d is located above each of the first 60 a and second 60 b mounting surfaces on the upper jaw 14. Between the first mounting surface 60 a and the second mounting surface 60 b is narrowed upper jaw tip portion 70.

The replaceable shearing tip 110 comprises a first half 110 a and a second half 110 b. The first half 110 a mounts to the first mounting surface 60 a, while the second half 110 b mounts to the second mounting surface 60 b. Each of the first half 110 a and second half 110 b has a ledge or flange 110 c that engages the third mounting surface 60 c. In overall configuration, it will be seen that each of the first half 110 a and second half 110 b is “L”-shaped in cross-section. In addition, each of the first half 110 a and second half 110 b has a top edge 110 d that engages the fourth mounting surface 60 d. The first half 110 a and second half 110 b each have a rear surface 110 e that engages the upper secondary shear blade 34 at forward edge 34 a. The first half 110 a and second half 110 b each have a bottom edge 110 f.

As best seen in FIG. 6, the replaceable shearing tip 110 is preferably mounted to the tip mounting portion 60 by socket head or spline-head cap-screws 120. Holes 122 are drilled through the first half 110 a and the second half 110 b to receive the cap-screws 120. The second half 110 b is preferably tapped with internal threads that engage external threads on the cap-screw 120. The first half 110 a is preferably counter-bored with counter-bores 124 to receive the head 120 a of the cap-screw 120. As can be seen, most preferably the thickness of the first half 110 a that has the counter-bore 124 is equal to or greater than the thickness of the second half 110 b. Also, the thickness of the narrowed upper jaw tip portion 70 is equal to or greater than thickness of either the first half 110 a or the second half 110 b. Further, as seen best in FIG. 8, the thickness of d1 the material of the first half 110 a beneath and supporting the cap-screw head 120 a is less than the depth d2 of the cap-screw head counter-bore 124. These structural features provide structural strength to the components.

For stress relief, it is highly preferred that the top edge 110 d is radiused where it meets the third mounting surface 60 c, which is similarly radiused. Also, the bottom ledge or flange 110 c is partially radiused where it meets the third mounting surface 60 c. See FIG. 6.

As a result of the above structure, as seen in FIGS. 7 a and 7 b, the replaceable shearing tip 110 will seat against the upper movable jaw 14 on at least three separate surfaces or seats: surfaces 60 c, 60 d, and 34 a. This is in addition to the mounting surfaces 60 a and 60 b on the narrowed upper jaw tip portion 70. This feature greatly relieves stress on the tip 110 and serves to hold the tip 110 firmly in place on the upper jaw 14 as the tip 110 pierces and is later withdrawn from the workpiece.

In addition, the structure of the replaceable shearing tip 110 encapsulates the narrowed upper jaw tip portion 70 and protects it. The tip 110 is more durable than previous replaceable tips and the fastening systems used therewith. Because the tip 110 is constructed of paired halves 110 a, 110 b, in the event that one of the halves is damaged, it is only necessary to replace that half and not the whole tip.

The socket-headed or spline-headed cap-screws 120 allow the tip 110 to be attached to the upper jaw 14 without bolts, improving strength and allowing more material to be used in the upper jaw. Further, an Allen wrench can be used to drive the socket-headed cap-screws 120 into the bores 124, instead of using a box-end wrench of socket wrench on the outside of the screw heads 120 a. This requires less material to be removed from the upper jaw 14.

Applicant has found that, for optimum performance and reliability of the replaceable shearing tip 110, a number of important angular relationships between the parts thereof and the upper jaw 14 are highly desirable.

First, as best seen in FIGS. 5 and 10, an angle α1 between the bottom edge 110 f of each of the first half 110 a and second half 110 b and the lower edge 34 b of the secondary shear blade 34 should be in the range of −10° to +35. FIG. 10 shows an angle α1 of +10°. This optimization tends to prevent the piercing tip 110 from moving outward from the secondary blade 34 as the piercing tip 110 contacts the workpiece.

Second, as best seen in FIGS. 5 and 9, an angle α2 between the fourth mounting surface 110 d and the top edge 34 c of the secondary shear blade 34 should be in the range of −20° to +25°. FIG. 9 shows an angle α2 of +10°. This optimization helps to hold the tip 110 in place on the upper jaw 14 from a force trying to push the tip 110 forward from the forward edge 34 a of the secondary shear blade 34.

Third, as best seen in FIGS. 5 and 11, an angle α3 between the front surface 110 g of either the first half 110 a or the second half 110 b, and the lower edge 34 b of the secondary shear blade 34 should be in the range of 55° to 75°. In the embodiment shown in the phantom line L in FIG. 12, the angle α3 is measured between the lower edge 34 b and a line L from the top corner 110 g 1 to the bottom corner 110 g 2 of the front surface 110 g.

Fourth, as best seen in FIG. 12, an angle α4 between the bottom edge 110 f of the replaceable shearing tip 110 and the ledge or flange 110 c should be in the range of −15° to +15°.

FIG. 13 shows the sequence of positions that the tip 110 will take within the lower jaw 12 as the upper jaw 14 closes on the lower jaw 12. It will be seen that force directed against the tip 110 by the workpiece will result in force being applied to the secondary shearing blade 34 at a variety of angles as the tip successively encounters and the penetrates the workpiece (not shown). The structure of the tip 110 serves to keep the tip 110 firmly in contact with the secondary shear blade 34 with minimum stress.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore desired that the present embodiment be considered in all respects as illustrative and not restrictive reference being made to the appended claims rather than to the foregoing description to indicate the scope of the invention. 

1-23. (canceled)
 24. A piercing tip for a shear, comprising: (a) a first tip half adapted to mount to a first mounting surface of a shear, the first mounting surface defined by a recessed area bounded by a top seat and a rear seat and a bottom seat, the first tip half having a cutting edge defined by an intersection of a substantially planar 1 sidewall and a bottom wall extending substantially perpendicular to the substantially planar sidewall; (b) a second tip half adapted to mount to a second mounting surface, the first mounting surface defined by a recessed area bounded by a top seat and a rear seat and a bottom seat, the second tip half having a cutting edge defined by an intersection of a substantially planar sidewall and a bottom wall extending substantially perpendicular to said substantially planar sidewall; whereby when the first tip half is mounted to the first mounting surface, a top edge of the first tip half abuts the top seat of the first mounting surface, and a rear edge of the of the first tip abuts the rear seat of the first mounting surface, and an edge of the bottom wall abuts the bottom seat of the first mounting surface; and whereby when the second tip half is mounted to the second mounting surface, a top edge of the second tip half abuts the top seat of the second mounting surface, and a rear edge of the of the second tip abuts the rear seat of the second mounting surface, and an edge of the bottom wall abuts the bottom seat of the second mounting surface; and whereby when the first and second tip halves are mounted to the first and second mounting surfaces, the substantially planar sidewalls of the first and second halves are opposed to each other and the bottom walls of the first and second tip halves abut one another.
 25. A piercing tip for a shear, comprising: a first piercing tip half, comprising: (a) a sidewall having: (i) a planar outer surface; (ii) an inner bearing surface; (iii) a substantially uniform thickness defined by a distance between the planar outer surface and the inner bearing surface; (iv) a front surface; (v) a rear bearing surface; and (vi) a top bearing surface; (b) a bottom flange extending substantially perpendicular to the sidewall, the bottom flange having: (i) a bottom surface; (ii) an upper bearing surface; (iii) a flange thickness defined by a distance between the bottom surface and the upper bearing surface; (iv) a front surface; and (v) a rear bearing surface; (c) a shearing edge defined by an intersection of the planar outer surface of the sidewall and the bottom surface of the bottom flange; (d) an inner corner defined by an intersection of the inner bearing surface of the sidewall and the upper bearing surface of the bottom flange; (e) a piercing edge defined by the intersection of the bottom surface of the bottom flange and the front surfaces of the sidewall and the bottom flange; (f) a rear bottom corner defined by the intersection of the rear bearing surface of the sidewall and the bottom surface of the bottom flange; (g) a front upper corner defined by the intersection of the front surface of the sidewall and the top bearing surface of the sidewall; (h) a rear upper corner defined by the intersection of the rear bearing surface and the top bearing surface, the rear upper corner having a radius.
 26. The piercing tip of claim 25, wherein the bottom surface of the bottom flange and the upper bearing surface of the bottom flange form an angle (α4) between about −15° to +15°.
 27. The piercing tip of claim 25, further comprising: a second piercing tip half, wherein the second piercing tip half is substantially a mirror image of the first piercing tip half.
 28. The piercing tip of claim 27, wherein the bottom surface of the bottom flange and the upper bearing surface of the bottom flange of both the first piercing tip half and second piercing tip half form an angle (α4) between about −15° to +15°.
 29. A blade set for a shear, comprising: (a) a shear blade having: (i) a planar outer surface; (ii) an inner bearing surface; (iii) a thickness defined by a distance between the planar outer surface and inner bearing surface; (iv) a front bearing end; (v) a top surface; (vi) a bottom surface; (vii) a shearing edge defined by an intersection of the planar outer surface and the bottom surface; (viii) a lower front corner defined by an intersection of the front bearing end and the bottom surface; and (b) a first piercing tip half, comprising: (i) a sidewall having: (A) a planar outer surface; (B) an inner bearing surface; (C) a substantially uniform thickness defined by a distance between the planar outer surface and the inner bearing surface; (D) a front surface; (E) a rear bearing surface; and (F) a top bearing surface; (ii) a bottom flange extending substantially perpendicular to the sidewall, the bottom flange having: (A) a bottom surface; (B) an upper bearing surface; (C) a flange thickness defined by a distance between the bottom surface and the upper bearing surface; (D) a front surface; and (E) a rear bearing surface; (iii) a shearing edge defined by an intersection of the planar outer surface of the sidewall and the bottom surface of the bottom flange; (iv) an inner corner defined by an intersection of the inner bearing surface of the sidewall and the upper bearing surface of the bottom flange; (v) a piercing edge defined by the intersection of the bottom surface of the bottom flange and the front surfaces of the sidewall and the bottom flange; (vi) a rear bottom corner defined by the intersection of the rear bearing surface of the sidewall and the bottom surface of the bottom flange; (vii) a front upper corner defined by the intersection of the front surface of the sidewall and the top bearing surface of the sidewall; (viii) a rear upper corner defined by the intersection of the rear bearing surface and the top bearing surface, the rear upper corner having a radius. whereby, the thicknesses of the shear blade and the sidewall of the first piercing tip half are substantially the same; whereby, the front lower corner of the shear blade and the rear bottom corner of the first piercing tip half are configured to matingly align and the front bearing end of the shear blade and the rear bearing surface of the sidewall of the first piercing tip half are configured to bear against one another.
 29. The blade set of claim 29, wherein, when the front lower corner of the shear blade and the rear bottom corner of the first piercing tip half are matingly aligned and the front bearing end of the shear blade and the rear bearing surface of the sidewall of the first piercing tip half are bearing against one another, the bottom surface of the bottom flange and the bottom surface of the shear blade form an angle (α1) between about −10° to +35°.
 30. The blade set of claim 29, wherein, when the front lower corner of the shear blade and the rear bottom corner of the first piercing tip half are matingly aligned and the front bearing end of the shear blade and the rear bearing surface of the sidewall of the first piercing tip half are bearing against one another, the top bearing surface of the sidewall of the piercing tip and the upper bearing surface of the shear blade form an angle (α2) between about −20° to +25°.
 31. The blade set of claim 29, wherein, when the front lower corner of the shear blade and the rear bottom corner of the first piercing tip half are matingly aligned and the front bearing end of the shear blade and the rear bearing surface of the sidewall of the first piercing tip half are bearing against one another, the upper bearing surface of the sidewall and the front surface of the sidewall of the piercing tip form an angle (α3) between about 55° to 75°.
 32. The blade set of claim 29, wherein the bottom surface of the bottom flange and the upper bearing surface of the bottom flange of the first piercing tip half form an angle (α4) between about −15° to +15°.
 33. The blade set of claim 29 further comprising: (c) a second piercing tip half, wherein the second piercing tip half is substantially a mirror image of the first piercing tip half.
 34. The blade set of claim 33, wherein the bottom surface of the bottom flange and the upper bearing surface of the bottom flange of both the first and second piercing tip halves form an angle (α4) between about −15° to +15°. 